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5- The beam shown below has an internal hinge at point C. Support A is fixed...
Please help with this question. 5- The beam shown below has an internal hinge at point...
Please help with this question.
5- The beam shown below has an internal hinge at point C. Support A is fixed while support D is a roller a-Draw the free body diagram for the beam (5 points) b-solve for the reaction forces at support A and D Ax= (5 point) Ay = (5 point) Am = (5 points) Dy = (5 points) 50K 3K/ft OD B C 7777 10 ft 10 ft 10 ft * >
5- The beam shown below has an internal hinge at point C. Support A is fixed...
5- The beam shown below has an internal hinge at point C. Support A is fixed while support D is a roller. a-Draw the free body diagram for the beam (5 points) b-solve for the reaction forces at support A and D Ax (5 point) Ay (5 point) Am (5 points) D- (5 points) SOK 3K/ft # B с 10 10 ft 10 ft B ot - inted CORE IS CF-33 A1 A2
Statics 5- The beam shown below has an internal hinge at point C. Support A is...
Statics
5- The beam shown below has an internal hinge at point C. Support A is fixed while support D is a roller. a-Draw the free body diagram for the beam (5 points) b- solve for the reaction forces at support A and D (5 point) Ay (5 points) A- (5 point) Am (5 points) D- SOK 3K/A B 10.17 10 ft 10 ft *
1. The block shown in the figure has a mass of 612 Kg. The static coefficient...
1. The block shown in the figure has a mass of 612 Kg. The static coefficient of friction between the block and the supporting surface is 0.33 while the kinetic coefficient of friction is 0.26. Ignore the size of the block. Force P is parallel to the incline while the 1000N force is vertical. a) If P = 2000 N, the shown block is (circle the correct answer) (5 points) a) in equilibrium b) moving up the incline c) is...
2.- The beam shown in the figure, has a roller support at A, a fixed support at C and an internal...
2.- The beam shown in the figure, has a roller support at A, a fixed support at C and an internal hinge at B. The lengths of segments AB and BC are α and b respectively. A uniformly distributed load, q, is applied between points B and C, and a concentrated load P acts at a distance 2a/3 from the support A. EI is constant. (a) Determine the deflection B at the hinge using superposition. Clearly state the continuity conditions...
Problem 3 (30 points). The beam shown below has an internal hinge at point C: (a)...
Problem 3 (30 points). The beam shown below has an internal hinge at point C: (a) [10 points] Draw the influence line for the reaction at B, RB. (b) [10 points] Draw the influence line for the moment at E, Mg. (C) [10 points] Determine the maximum bending moment generated by the moving truck load shown below. 20 k 20 k 5k B A с D 5 ft 5 ft E 5 ft 5 ft 10 ft 10 ft
2.- The beam shown in the figure, has a roller support at A, a fixed support at C and an internal hinge at B. The lengths of segments AB and BC are and b respectively. A uniformly distributed load, q...
2.- The beam shown in the figure, has a roller support at A, a fixed support at C and an internal hinge at B. The lengths of segments AB and BC are and b respectively. A uniformly distributed load, q, is applied between points B and C, and a concentrated load P acts at a distance 2a/3 from the support A. El is constant. (a) Determine the deflection o at the hinge using superposition. Clearly state the continuity conditions at...
Question 1 (a) Abeam has a fixed support at A and roller supports at D and E as shown in Fig. Q.la below. Internal...
Question 1 (a) Abeam has a fixed support at A and roller supports at D and E as shown in Fig. Q.la below. Internal hinges are also placed at B and C. (i) Determine all the reactions (ii) Draw the shear force diagram for the beam. (iii) Draw the bending moment diagram for the beam. (20%) (25%) (25° 60 kN/m 40 kN/m 20 kN/m 150 kN 100 kN.m Hinge Fig. Q.1a
a. Draw a free-body diagram for the beam shown above and derive expressions for the support...
a. Draw a free-body diagram for the beam shown above and derive
expressions for the support reactions at A and B
b. Draw internal force (shear and bending moment) diagrams.
c. If a = 10 ft and M0 = 200 ft-lb, use the dimensions of the
beam cross-section, provided on the previous page, to compute the
maximum flexural and shear stresses on the beam cross-section.
d. If the allowable bending stress is 925 psi and the allowable
shear stress is...
a. Draw a complete free-body diagram for the beam shown in Fig. 1. Must show and...
a. Draw a complete free-body diagram for the beam shown in Fig.
1. Must show and label x-y coordinate system, support reactions,
loads, and dimensions
b. Derive formulas for all support reactions using conditions of
equilibrium. Must show all work.
c. Using the student variables shown below, calculate beam
support reactions and draw shear and bending moment diagrams. To
receive full credit, support reactions and loads must be shown on a
free-body diagram. Each shear and bending moment diagram must...
Please help with this question.
5- The beam shown below has an internal hinge at point C. Support A is fixed while support D is a roller a-Draw the free body diagram for the beam (5 points) b-solve for the reaction forces at support A and D Ax= (5 point) Ay = (5 point) Am = (5 points) Dy = (5 points) 50K 3K/ft OD B C 7777 10 ft 10 ft 10 ft * >
5- The beam shown below has an internal hinge at point C. Support A is fixed while support D is a roller. a-Draw the free body diagram for the beam (5 points) b-solve for the reaction forces at support A and D Ax (5 point) Ay (5 point) Am (5 points) D- (5 points) SOK 3K/ft # B с 10 10 ft 10 ft B ot - inted CORE IS CF-33 A1 A2
Statics
5- The beam shown below has an internal hinge at point C. Support A is fixed while support D is a roller. a-Draw the free body diagram for the beam (5 points) b- solve for the reaction forces at support A and D (5 point) Ay (5 points) A- (5 point) Am (5 points) D- SOK 3K/A B 10.17 10 ft 10 ft *
1. The block shown in the figure has a mass of 612 Kg. The static coefficient of friction between the block and the supporting surface is 0.33 while the kinetic coefficient of friction is 0.26. Ignore the size of the block. Force P is parallel to the incline while the 1000N force is vertical. a) If P = 2000 N, the shown block is (circle the correct answer) (5 points) a) in equilibrium b) moving up the incline c) is...
2.- The beam shown in the figure, has a roller support at A, a fixed support at C and an internal hinge at B. The lengths of segments AB and BC are α and b respectively. A uniformly distributed load, q, is applied between points B and C, and a concentrated load P acts at a distance 2a/3 from the support A. EI is constant. (a) Determine the deflection B at the hinge using superposition. Clearly state the continuity conditions...
Problem 3 (30 points). The beam shown below has an internal hinge at point C: (a) [10 points] Draw the influence line for the reaction at B, RB. (b) [10 points] Draw the influence line for the moment at E, Mg. (C) [10 points] Determine the maximum bending moment generated by the moving truck load shown below. 20 k 20 k 5k B A с D 5 ft 5 ft E 5 ft 5 ft 10 ft 10 ft
2.- The beam shown in the figure, has a roller support at A, a fixed support at C and an internal hinge at B. The lengths of segments AB and BC are and b respectively. A uniformly distributed load, q, is applied between points B and C, and a concentrated load P acts at a distance 2a/3 from the support A. El is constant. (a) Determine the deflection o at the hinge using superposition. Clearly state the continuity conditions at...
Question 1 (a) Abeam has a fixed support at A and roller supports at D and E as shown in Fig. Q.la below. Internal hinges are also placed at B and C. (i) Determine all the reactions (ii) Draw the shear force diagram for the beam. (iii) Draw the bending moment diagram for the beam. (20%) (25%) (25° 60 kN/m 40 kN/m 20 kN/m 150 kN 100 kN.m Hinge Fig. Q.1a
a. Draw a free-body diagram for the beam shown above and derive
expressions for the support reactions at A and B
b. Draw internal force (shear and bending moment) diagrams.
c. If a = 10 ft and M0 = 200 ft-lb, use the dimensions of the
beam cross-section, provided on the previous page, to compute the
maximum flexural and shear stresses on the beam cross-section.
d. If the allowable bending stress is 925 psi and the allowable
shear stress is...
a. Draw a complete free-body diagram for the beam shown in Fig.
1. Must show and label x-y coordinate system, support reactions,
loads, and dimensions
b. Derive formulas for all support reactions using conditions of
equilibrium. Must show all work.
c. Using the student variables shown below, calculate beam
support reactions and draw shear and bending moment diagrams. To
receive full credit, support reactions and loads must be shown on a
free-body diagram. Each shear and bending moment diagram must...
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